JP2007141906A - Resistor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a resistor which can be used even when high power is applied. <P>SOLUTION: The resistor is provided with a resistor body 11 made of a metal plate; a pair of electrodes 12 bent downward so as to form a U-shape on both ends of this resistor body 11, and provided integrally with the resistor body 11; and a protective film 13 provided so as to cover at least one part of the resistor body 11. Top ends 12a of the pair of electrodes 12 are connected to the lower surface of the resistor body 11 and gaps 14 are formed on the electrodes 12. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a resistor used for detecting a current value of various electronic devices.

  As shown in FIG. 4, this type of conventional resistor includes a resistor 1 made of a plate-like metal, and a pair of electrodes 2 made of metal formed on the lower surfaces of both ends of the resistor 1. It was set as the structure provided with.

As prior art document information relating to the invention of this application, for example, Patent Document 1 is known.
JP 2002-184601 A

  In the above-described conventional resistor, since the electrode 2 is made of metal, the electrode 2 becomes high temperature due to the heat generated in the resistor 1 when a current is applied, whereby the resistor 1 is heated by the heat conducted from the electrode 2. However, the resistance value of the resistor 1 fluctuates, and as a result, there is a problem that it cannot be used when high power is applied.

  SUMMARY OF THE INVENTION The present invention solves the above-described conventional problems, and an object thereof is to provide a resistor that can be used even when high power is applied.

  In order to achieve the above object, the present invention has the following configuration.

  According to the first aspect of the present invention, there is provided a resistor composed of a metal plate, and a pair of electrodes which are integrally formed with the resistor by being bent downward in a U-shape at both ends of the resistor. And a protective film provided so as to cover at least a part of the resistor, the tip of the pair of electrodes is connected to the lower surface of the resistor and a gap is formed in the electrode. According to this configuration, since the heat generated in the resistor can be dissipated by the gap portion, it is possible to prevent the resistor from becoming high temperature, and thereby, it is possible to use even when high power is applied. Is obtained.

  The invention according to claim 2 of the present invention is particularly a metal body formed in the gap, and according to this configuration, the heat generated in the resistor can be stored in the metal body. Thus, the effect of being able to be used even when a higher electric power is applied can be obtained.

  As described above, the resistor according to the present invention includes a resistor composed of a metal plate, and a pair of electrodes integrally formed with the resistor by being bent downward in a U shape at both ends of the resistor. A protective film provided so as to cover at least a part of the resistor, and the tip of the pair of electrodes is connected to the lower surface of the resistor and a gap is formed in the electrode. Heat generated in the resistor can be dissipated by the air gap, thereby preventing the resistor from becoming high temperature, and thus has an excellent effect that it can be used even when high power is applied. .

  FIG. 1 is a perspective view of a resistor according to an embodiment of the present invention, and FIG. 2 is a front view of the resistor.

  As shown in FIGS. 1 and 2, the resistor according to the embodiment of the present invention is a resistor 11 made of a metal plate, and is bent into a U-shape downward at both ends of the resistor 11. A pair of electrodes 12 provided integrally with the body 11, and a protective film 13 provided so as to cover at least a part of the resistor 11, and a distal end portion 12 a of the pair of electrodes 12 is provided as a resistor. 11 and a gap portion 14 is formed in the electrode 12.

  In the above configuration, the resistor 11 is made of a metal plate made of a plate-like metal having good conductivity such as nichrome, copper nickel, manganin, etc., and has a length of 1.0 to 15 mm and a width of 0.5. 10 mm and the thickness is 100 to 1000 μm. Further, a protective film 13 made of an insulating material such as epoxy resin or polyimide resin is formed on the upper surface of the resistor 11. The resistor 11 may be partially formed with a notch for adjusting the resistance value.

  The pair of electrodes 12 are integrally provided with the resistor 11 at both ends of the resistor 11, and are bent downward in a U-shape. That is, the pair of electrodes 12 is a resistor. 1st side surface part 12b by which both ends of 11 were bend | folded below, Furthermore, the bottom part 12c bent toward the center part of the resistor 11 in the middle of the bent part, and also bend | folded upward in the middle And the second side surface portion 12d. The lengths of the first side surface portion 12b, the bottom surface portion 12c, and the second side surface portion 12d are 1/10 to 1/3 of the length of the resistor 11.

  The distal end portion of the second side surface portion 12d (the distal end portion 12a of the electrode 12) is in contact with the lower surface of the resistor 11, and the second side surface portion 12d and the resistor 11 are in contact with each other. By connecting by welding or the like, a U-shaped gap portion 14 is formed by the electrode 12 and the resistor 11 bent in a U-shape.

  Further, the lower surface of the bottom surface portion 12c of the electrode 12 is subjected to tin plating, whereby the resistor is mounted on the mounting substrate. Note that nickel plating, copper plating, or gold plating may be formed between the tin plating and the lower surface of the bottom surface portion 12c of the electrode 12 as necessary.

  Next, a method for manufacturing a resistor according to an embodiment of the present invention will be described.

  1 and 2, first, a metal plate having a predetermined shape is formed by subjecting a plate-like metal to cutting, punching, pressing and the like.

  Next, both end portions of the metal plate are bent downward to form the first side surface portion 12b, and the resistor 11 having a predetermined length is formed.

  Next, the bottom portion 12c is formed by bending toward the center of the resistor 11 in the middle of the bent portion.

  Next, the second side surface portion 12d is formed by bending upward in the middle of the bent portion, and the U-shaped electrode 12 is provided. At this time, the distal end portion of the second side surface portion 12 d (the distal end portion 12 a of the electrode 12) is brought into contact with the lower surface of the resistor 11.

  Next, the tip 12a of the electrode 12 is connected to the lower surface of the resistor 11 by welding.

  Next, the protective film 13 is formed on the upper surface of the resistor 11 by thermocompression bonding, ultrasonic welding, or the like. At this time, the protective film 13 may be formed between the tip portions 12 a of the electrodes 12 positioned on the lower surface of the resistor 11.

  Finally, tin plating is formed on the lower surface of the bottom surface portion 12 c of the electrode 12.

  In the above-described embodiment of the present invention, the distal end portions 12a of the pair of electrodes 12 that are integrally formed with the resistor 11 by bending downward at both ends of the resistor 11 in a U shape are used as the resistor. Since the gap portion 14 is formed in the electrode 12 while being connected to the lower surface of the body 11, heat generated in the resistor 11 can be radiated by the gap portion 14. Therefore, an effect that it can be used even when high power is applied can be obtained. Further, since the resistor 11 does not reach a high temperature, it can be downsized.

  In addition, in the electrode 12, since the metal plate exists above and below the resistor 11 and the bottom surface portion 12c through the gap portion 14, the metal plate can be given elasticity in the vertical direction, Thereby, since the stress in the vertical direction can be relieved, the force received by the solder can be reduced, and as a result, the effect that the life of the solder can be extended can also be expected.

  Further, by connecting the tip portion 12a of the electrode 12 (tip portion of the second side surface portion 12d) and the resistor 11, the current flowing from the mounting substrate is applied to both the first side surface portion 12b and the second side surface portion 12d. Since it flows in parallel, the resistance value can be lowered.

  As shown in FIG. 3, if the metal body 15 is formed in the gap portion 14, the heat generated in the resistor 11 can be stored in the metal body 15, so that the temperature of the resistor 11 is further reduced. Thus, it can be used even when higher power is applied. At this time, the metal body 15 is placed on the upper surface of the bottom surface portion 12c and connected with solder or the like.

  The resistor according to the present invention can be used even when high power is applied, and is useful in resistors used for detecting the current value of various electronic devices.

The perspective view of the resistor in one embodiment of this invention Front view of the resistor Front view showing another example of the same resistor A perspective view of a conventional resistor

Explanation of symbols

DESCRIPTION OF SYMBOLS 11 Resistor 12 A pair of electrodes 12a The front-end | tip part of an electrode 13 Protective film 14 The space | gap part 15 Metal body

Claims (2)

A resistor composed of a metal plate, a pair of electrodes that are bent downwardly in a U shape at both ends of the resistor, and are provided integrally with the resistor, and so as to cover at least a part of the resistor And a protective film provided on the resistor, wherein the tip of the pair of electrodes is connected to the lower surface of the resistor, and a gap is formed in the electrode. The resistor according to claim 1, wherein a metal body is formed in the gap.

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